Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.27 (thermolysin)
1,894 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An acid DNase (DNase II) from porcine spleen was purified by sequential chromatography over carboxymethyl-cellulose, blue dextran-Sepharose, hydroxylapatite, and sulfoxyethyl-cellulose. The purified enzyme shows two polypeptide bands on sodium dodecyl sulfate-polyacrylamide gel electrophoresis at Mr 35,000 (alpha chain) and 10,000 (beta chain). The sum of the two molecular weights is that of the native enzyme (45,000). Thus, the DNase II molecule is an alpha,beta dimer. The two polypeptides are not joined by disulfide bonds, but can be cross-linked chemically with dimethyl suberimidate. They are dissociable in 8 M urea, after which they can be isolated by gel filtration on Sephadex G-100, eluting with 1 M acetic acid. Once dissociated, the two polypeptides cannot be reassociated to regenerate DNase II activity. The sum of the amino acid compositions of the two polypeptides is that of the native enzyme, and both contain carbohydrate. The beta chain is devoid of histidine, half-cystine, valine, and methionine. The NH2-terminal amino acid of the alpha chain is leucine, while that of the beta chain cannot be identified by either dansylation or Edman degradation. Alkylation of an essential histidine residue of DNase II occurs on incubation of the enzyme with [2-14C] ICH2COOH (Oshima, R. G., and Price, P. A. (1973) J. Biol. Chem. 248, 7522-7526). Radioactivity is found only in the alpha chain. After hydrolysis of the alpha chain with trypsin, chymotrypsin, and thermolysin, radioactive peptides were isolated by gel filtration on Sephadex G-25 and reversed-phase high performance liquid chromatography. Sequence analyses of the radioactive peptides show alkylation of 1 of 9 histidines in the entire amino acid sequence of DNase II. The sequence around this histidine, determined by manual microsequencing and by the release of amino acids with carboxypeptidases A and B, is Ala-Thr-Glu-Asp-His-Ser-Lys-Trp.
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PMID:The subunit structure and active site sequence of porcine spleen deoxyribonuclease. 403 Jul 66

The N-terminal formic acid fragment (FA1) of the N-[3H]ethylmaleimide-labeled and carboxymethylated bovine mitochondrial phosphate transport protein (PTPN*CM) has been purified and completely sequenced: NH2-Ala-Val-Glu-Glu-Gln-Tyr-Ser-Cys-Asp-Tyr10-Gly-Ser-Gly-Arg-Phe- Phe-Ile-Leu-Cys- Gly20-Leu-Gly-Gly-Ile-Ile-Ser-Cys-Gly-Thr-Thr30-His-Thr -Ala-Leu-Val-Pro-Leu-Asp- -Leu-Val40-Lys-Cys(N-[3H]ethylmaleimide)-Arg-Met-Gln-Val-Asp- COOH. By thermolysin digestion of FA1 and high-performance liquid chromatography isolation of the radioactive subfragment Leu39-Arg43, the sole N-ethylmaleimide-binding residue has been identified as Cys42. FA1 contains a high mole percentage of cysteine (8.5%) and shows silver staining anomaly. Its sequence reveals significant homology in the triplicated gene regions (Pro27,132,229) of the mitochondrial ADP/ATP carrier from beef heart and Neurospora crassa. The hydropathic profile suggests that FA1 contains a transmembrane segment (Phe15-Val40) with only one basic (His31) and one acidic (Asp38) residue. The presence of the phosphate transport protein gene among nuclear genes is suggested from a lack of significant homology between the reverse-translated FA1 (mitochondrial codons) and the bovine mitochondrial genome. The inhibitory action of N-ethylmaleimide on the phosphate transport mechanism is discussed.
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PMID:Sequence of the N-terminal formic acid fragment and location of the N-ethylmaleimide-binding site of the phosphate transport protein from beef heart mitochondria. 406 97

The effects of various chemical and enzymatic treatments on the biological activity of porcine luteinizing hormone-releasing hormone (LH-RH) are described. This experiment was performed before the elucidation of the structure of LH-RH. LH-RH activity was abolished by the following endopeptidases: chymotrypsin, subtilisin, papain, and thermolysin, but not by pepsin or trypsin. Exopeptidases did not affect LH-RH activity, but a purified preparation of pyrolidone carbosylpeptidase did. The amino acid sequence of LH-RH/FSH-RH was established to be (pyro)Glu-His-Trp-Ser-Tyr-Gly-Leu-Arg-Pro-Gly-Amine. This decapeptide lacks both the Amine terminus and the COOH terminus. Its Amine-terminal dipeptide sequence,(pyro)Glu-His, is similar to that of tyrotropin-releasing hormone. The lack of inactivation by the exopeptidases is in good agreement with these findings. Treatment with various chemical reagents showed that tyrosine, histidine, tryptophan, and arginine in LH-RH are important for its biological activity. Nitrous acid and Edman degradation did not inactivate LH-RH. These results are also in agreement with the determined structure of LH-RH. This hormone showed a high follicle-stimulating hormone-releasing hormone (FSH-RH) activity. The inactivation of LH-RH was always accompanied by a loss of FSH-RH activity. These experiments also shed some light on the structure-activity relationship of this hormone.
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PMID:Studies on the properties of hypothalamic luteinizing hormone-releasing hormone. 494 14

Selective proteolysis has been used to delineate the hemoglobin-binding site on haptoglobin heavy chain. Haptoglobin was cleaved specifically by plasmin, trypsin, chymotrypsin, staphylococcal protease, and thermolysin. Haptoglobin-hemoglobin complex was treated with these enzymes to determine which sites were protected from cleavage by the hemoglobin. The modified haptoglobins were tested for changes in their hemoglobin and hemoglobin alpha chain-binding properties. The sites of proteolytic cleavage were identified from the newly generated NH2 termini by automated Edman degradation amino acid-sequencing techniques. The results suggest that residues 128 through 131, 136 and 137, as well as 9 and 10 of the heavy chain may be involved in the binding of hemoglobin. On the other hand, residues 159 and 160, which lie in the 17-residue additional loop that is unique to haptoglobin among its homologous serine protease family, and residues 73 and 74, which lie close to the carbohydrate-binding residues, appear to be remote from the hemoglobin-binding site.
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PMID:Hemoglobin-binding site on haptoglobin probed by selective proteolysis. 621 62

Cerebral endothelium is being studied rather extensively in tissue culture, but no reports are available describing the tissue culture of cerebral microvascular smooth muscle. The present paper describes for the first time the isolation and culture of non-neoplastic mouse cerebral vascular smooth muscle. Microvessels from a dounce homogenate of mouse brain are plated onto plastic culture dishes in Dulbecco's modified Eagle media plus 20% fetal bovine serum and treated briefly with collagenase. Cells migrate from vessels and proliferate sufficiently to be transferred out of primary culture in 2 to 3 wk. Light microscopy reveals generally broad, polygonal cells that grow collectively in a "hill and valley" pattern. By transmission electron microscopy the cells possess many characteristics of smooth muscle: basal laminas, clusters of pinocytotic vesicles, and bundles of thin filaments. Several ill-defined cell-to-cell junctions are also present. Isoelectric focusing and sodium dodecyl sulfate-electrophoresis of cellular proteins on polyacrylamide gels after pulse labeling cultures with [S-35]methionine demonstrate that these cells actively synthesize a smooth-muscle-specific isoactin, alpha-actin. The identity of alpha-actin is confirmed by analysis of NH2-terminal peptides after actin digestion with trypsin and subsequent peptide cleavage with thermolysin. Both their morphology and active synthesis of alpha-actin strongly suggest that these cells are of smooth-muscle origin. Future studies of their metabolism and interactions with endothelium and astrocytes should provide a better understanding of the cerebral microcirculation.
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PMID:Cerebral microvascular smooth muscle in tissue culture. 623 74

A study of the influence of chemical modifications on the activity of Achromobacter iophagus collagenase (EC 3.4.24.8) has led to the following conclusions: a modification of 4 out of 80 COOH groups with carbodiimide led to 90% loss of enzymic activity. A 70% inactivation was found after modification of two tyrosines out of 30 with tetranitromethane. The modification of four to six tryptophans out of 16 with 2-hydroxy-5-nitrobenzyl bromide decreased enzyme activity to 36%. This inactivation is accelerated in the presence of collagen. An increase of reagent/enzyme molar ratio led to a modification of 16 tryptophan residues and denaturation of Acahromobacter collagenase. A modification of two arginines out of 18 with 1,2-cyclohexanedione and eight NH2 groups out of 24 with 2,3-dimethyl maleic anhydride does not change the collagenolytic activity. All NH2 groups become available for 2,3-dimethyl maleic anhydride after dissociation of the dimer. A possible analogy of hydrolytic site of collagenase with that of two other known bacterial metalloproteinases (thermolysin and Bacillus subtilis neutral proteinase (EC 3.4.24.4)) is discussed.
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PMID:Chemical modifications of Achromobacter collagenase and their influence on the enzymic activity. 625 92

Difference spectra generated during thermolysin digestion of camel beta-endorphin at pH 8.2 or at pH 6.5 indicate rapid blue shifting of the near-UV absorption bands of the NH2-terminal tyrosine. A similar spectral change is not observed for the NH2-terminal tyrosine in [Met]enkephalin when it is digested under similar conditions. These results suggest that enzymatic digestion destroys or alters some structural interaction between the NH2-terminal tyrosyl residue of the endorphin and a residue(s) within the COOH-terminal segment of the molecule. Peptide mapping of the digest as a function of time suggests that cleavage of the bond linking the alanine-21 and isoleucine-22 residues produces most of the observed effect. These data provide evidence for the existence of a tertiary structure for beta-endorphin in aqueous solutions.
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PMID:beta-Endorphin: demonstration of a tertiary structure in aqueous solution. 627 66

The inhibition mechanism of ovostatin was studied using rabbit synovial collagenase and thermolysin. When enzymes were complexed with ovostatin, only the proteolytic activity towards high molecular weight substrates was inhibited. Activity towards low molecular weight substrates was partially modified: the catalytic activity of collagenase bound to ovostatin was inhibited by only 40% towards 2,4-dinitrophenyl-Pro-Gln-Gly-Ile-Ala-Gly-Gln-D-Arg and that of thermolysin bound to ovostatin was activated about 2.6-fold towards benzyloxycarbonyl-Gly-Leu-NH2 and benzyloxycarbonyl-Gly-Phe-NH2. Collagenase-ovostatin complexes failed to react with anti-(collagenase) antibody. Saturation of ovostatin with thermolysin prevented the subsequent binding of collagenase. Ovostatin-proteinase complexes ran faster than free ovostatin on 5% polyacrylamide gel electrophoresis. Complexing ovostatin with either collagenase or thermolysin resulted in the cleavage of the quarter-subunit of ovostatin (Mr = 165,000) into two fragments with Mr = 88,000 and 78,000. On the other hand, when the inhibitory capacity of ovostatin was tested with trypsin, chymotrypsin, and papain, only partial inhibition of their proteolytic activities was observed towards azocasein. Stronger inhibition was noted when Azocoll was a substrate, however. Analyses of ovostatin-enzyme complexes by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that the quarter-subunit of ovostatin was cleaved into several fragments by those enzymes. These results led us to propose that ovostatin inhibits metalloproteinases in preference to proteinases of other classes in a manner similar to alpha 2-macroglobulin; hydrolysis of a peptide bond by a proteinase in the susceptible region of the ovostatin polypeptide chain triggers a conformational change in the ovostatin molecule and the enzyme becomes bound to ovostatin in such a way that the proteinase is sterically hindered from access to large protein substrates and yet is accessible to small synthetic substrates. A kinetic study of collagenase binding to ovostatin gave the value of k2/Ki = 6.3 X 10(5) M-1 min-1. The results indicate that ovostatin is equally as good a substrate for collagenase as type I collagens.
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PMID:Ovostatin: a novel proteinase inhibitor from chicken egg white. II. Mechanism of inhibition studied with collagenase and thermolysin. 630 43

F (fusion) and HANA (hemagglutinin and neuraminidase) glycoproteins of HVJ (Sendai virus) were purified and characterized. The NH2-terminal hydrophobic region of the F1 (larger) subunit of F (fusion)-glycoprotein seems to be required for the hemolytic and cell fusion-inducing activity of the virus for the following reasons. (1) Selective splitting off of a 2,500-3,500 dalton segment from the NH2-terminal region of F1 by chymotrypsin or thermolysin resulted in inactivation of the biological activities of HVJ. (2) At least a part of this region may be exposed to the surrounding medium, since it is preferentially iodinated and is easily split by aminopeptidase M, chymotrypsin, and thermolysin. Tryptic digestion, which does not remove the NH2-terminal region but produce nicking of F1 subunit to subfragments F1a (larger one) and F1b (smaller one), resulted in substantial structural changes evidenced by circular dichroism measurement and iodination by lactoperoxidase method. Trypsin-digested F seems to have the NH2-terminal hydrophobic region buried within hydrophobic interior of the protein (or in the lipid bilayers). Based on these and other results, we propose a hypothesis featuring direct interaction of the hydrophbic region with the lipid bilayers of the target-cell membrane as an important step in fusion reactions between the viral envelope and cell membranes.
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PMID:Viral proteins in cell fusion. 631 Aug 22

The 350-residue amino acid sequence of the catalytic subunit of bovine cardiac muscle adenosine cyclic 3',5'-phosphate dependent protein kinase is described. The protein has a molecular weight of 40 862, which includes an N-tetradecanoyl (myristyl) group blocking the NH2 terminus and phosphate groups at threonine-197 and serine-338. Seven methionyl bonds in the S-carboxymethylated protein were cleaved with cyanogen bromide to yield eight primary peptides. These fragments, and subpeptides generated by cleavage with trypsin, pepsin, chymotrypsin, thermolysin, and Myxobacter AL-1 protease II, were purified and analyzed to yield the majority of the sequence. The primary peptides were aligned by analyses of overlapping peptides, particularly of methione-containing tryptic peptides generated after in vitro [14C]methyl exchange labeling of methionyl residues in the intact protein.
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PMID:Amino acid sequence of the catalytic subunit of bovine type II adenosine cyclic 3',5'-phosphate dependent protein kinase. 631 Dec 52


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